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  • This online virtual oscilloscope allows you to visualise live sound input and get to grips with how to adjust the display.[1]
  • When the oscilloscope is first loaded, this setting is set at 1ms, and shows one complete waveform over 4 squares.[1]
  • These two sliders allow you to adjust the position of the oscilloscope's trace on the grid.[1]
  • The two most essential tools you will own for diagnosing any circuit is a digital multimeter and an oscilloscope.[2]
  • You might be asking, "What oscilloscope or other test equipment should I get?" which is a common question from students and makers.[2]
  • Almost every oscilloscope you encounter for sale today will be a Digital Storage Oscilloscope (DSO) or a Mixed Signal Oscilloscope (MSO).[2]
  • A mixed signal oscilloscope is a digital storage oscilloscope with additional functionality that integrates logic analyser capabilities.[2]
  • Are you looking for an oscilloscope for your electronics workbench?[3]
  • An oscilloscope is a tool that allows you to see how voltage changes over time.[3]
  • To select an oscilloscope, you need to know what kind of signals you’ll need to measure.[3]
  • Sample rate: this refers to how many samples per second the oscilloscope takes.[3]
  • The oscilloscope is a measuring device that allows us to see changes in electrical voltage that depend on time.[4]
  • We can say oscilloscope is basically a graphic display device.[4]
  • The first digital storage oscilloscope was produced by Nicolet Test Instrument of Madison.[4]
  • Digital oscilloscopes also led to the production of hand-held digital oscilloscopes.[4]
  • The trouble with charts like this is that they can take ages to plot—unless, of course, you happen to be an oscilloscope![5]
  • Imagine trying to build a compact oscilloscope before miniature electronic components were readily available.[5]
  • A US Navy electrician uses an oscilloscope to check the performance of an electric motor onboard an aircraft carrier.[5]
  • We can use oscilloscopes for looking at all kinds of signals in all kinds of ways.[5]
  • All sorts of questions arise when choosing a new digital oscilloscope (DSO) — it can be somewhat daunting![6]
  • Where will you use the scope (on the bench, at a customer's site, under the hood of a car)?[6]
  • Bandwidth: To measure the 12 MHz signal, a scope needs at least 50 MHz bandwidth.[6]
  • A bench-top scope will usually have the highest performance — and cost, but it’s ready to use as soon as you turn it on.[6]
  • The oscilloscope basically draws a graph of an electrical signal.[7]
  • So an oscilloscope can analyze how one clarinet's sound is different from another's, or how one bulb's light differs from another's.[7]
  • Auto mechanics use oscilloscopes to measure engine vibrations; doctors use them to measure brain waves.[7]
  • The modern alternative to standard bench top oscilloscopes are PC-based digital oscilloscopes such as Picoscope.[8]
  • We will explore the various uses of an oscilloscope using the Tektronix MDO3104 that was provided by Tektronix.[9]
  • Early oscilloscopes were only able to show the relationship that exists between potential difference and time.[9]
  • Begin by connecting oscilloscope channel 1 to the Arbitrary Function Generator (AFG) BNC connector on the back of the scope.[9]
  • Digital oscilloscopes take all guesswork out of using the graticule.[9]
  • Figure 1 shows one of the digital oscilloscopes you will use in the laboratories (the GDS-1022).[10]
  • BNC-Banana adapters allow you to connect the banana cables that you normally use in the labs to the BNC jack of an oscilloscope.[10]
  • An oscilloscope is a type of electronic test instrument that can graphically display signal voltage changes.[11]
  • Engineers use oscilloscopes to study the changing process of various electrical phenomena for laboratory work.[11]
  • If you look at an Oscilloscope, there will be controls surrounding the scope’s screen.[11]
  • Using the O-scope, you can find whether a certain component in your circuit has malfunctioned.[11]
  • The PicoScope 2200A Series oscilloscopes offer a small, light, modern alternative to bulky benchtop devices.[12]
  • Oscilloscope is a rugged, self-contained, hand-held, two -channel oscilloscope with 100MHz bandwidth.[12]
  • : The SDS1000CNL family of oscilloscopes offer a high performance-to-price ratio and give the user good multifunction features and quality.[12]
  • You may have noticed the AC and DC coupling option on your oscilloscope by now.[13]
  • Your oscilloscope may also give you the option of coupling to ground.[13]
  • I first put the ocilloscope in ground coupling mode to line up ground with the center line on the scope.[13]
  • The name oscilloscope, comes from the fact that it enables oscillations to be viewed.[14]
  • Sometimes the name cathode-ray oscilloscope, or CRO was used.[14]
  • The function of an oscilloscope is to be able to display waveforms on some form of display.[14]
  • In this way it is possible to see an electronic waveform on an oscilloscope as it may be envisaged.[14]
  • An oscilloscope allows you to view how voltage changes over time.[15]
  • Some of the things that the display screen on an oscilloscope shows is the measured signal of the voltage using a graph.[15]
  • The oscilloscope was invented by a French physicist André Blondel in 1893.[15]
  • ’s leaders in producing oscilloscopes.[15]
  • An oscilloscope is a laboratory instrument commonly used to display and analyze the waveform of electronic signals.[16]
  • High-end oscilloscopes can display signals having frequencies up to several hundred gigahertz (GHz).[16]
  • The oldest form of oscilloscope, still used in some labs today, is known as the cathode-ray oscilloscope.[16]
  • The most sophisticated oscilloscopes employ computers to process and display waveforms.[16]
  • The modern oscilloscope is one of the most remarkable instruments ever constructed.[17]
  • Intimate familiarity with your oscilloscope is invaluable in getting the best possible results with it.[17]
  • A 50MHz oscilloscope cannot track a 5ns rise time pulse, but it can measure a 2ns delay between two such events.[17]
  • There are situations where no amount of cleverness will work and the right equipment (e.g., a faster oscilloscope) must be used.[17]
  • This article is about current oscilloscopes, providing general information.[18]
  • For history of oscilloscopes, see Oscilloscope history .[18]
  • For detailed information about various types of oscilloscopes, see Oscilloscope types .[18]
  • The oscilloscope can be adjusted so that repetitive signals can be observed as a persistent waveform on the screen.[18]
  • The main purpose of an oscilloscope is to graph an electrical signal as it varies over time.[19]
  • Most scopes produce a two-dimensional graph with time on the x-axis and voltage on the y-axis.[19]
  • There are also controls to set the trigger on the scope, which helps focus and stabilize the display.[19]
  • The maximum frequency a scope can measure varies, but it's often in the 100's of MHz (1E6 Hz) range.[19]
  • Match your needs with the right oscilloscope platform, probe solution and software applications.[20]

소스

  1. 1.0 1.1 1.2 Virtual Oscilloscope
  2. 2.0 2.1 2.2 2.3 Oscilloscope Basics: A Beginner's Guide
  3. 3.0 3.1 3.2 3.3 Best Oscilloscopes for Beginners and Hobbyists 2020
  4. 4.0 4.1 4.2 4.3 What is Oscilloscope? Types of Oscilloscope
  5. 5.0 5.1 5.2 5.3 How oscilloscopes work
  6. 6.0 6.1 6.2 6.3 Choosing an Oscilloscope
  7. 7.0 7.1 7.2 Definition of Oscilloscope by Merriam-Webster
  8. Using an oscilloscope
  9. 9.0 9.1 9.2 9.3 Basic Waveform Analysis with an Oscilloscope
  10. 10.0 10.1 Department of Physics : Oscilloscope
  11. 11.0 11.1 11.2 11.3 What is an Oscilloscope and How to use it?
  12. 12.0 12.1 12.2 All industrial manufacturers
  13. 13.0 13.1 13.2 Oscilloscope How To
  14. 14.0 14.1 14.2 14.3 What is an Oscilloscope
  15. 15.0 15.1 15.2 15.3 What is an Oscilloscope? Why is it important? – Simply Smarter Circuitry Blog
  16. 16.0 16.1 16.2 16.3 Definition from WhatIs.com
  17. 17.0 17.1 17.2 17.3 Oscilloscope - an overview
  18. 18.0 18.1 18.2 18.3 Oscilloscope
  19. 19.0 19.1 19.2 19.3 How to Use an Oscilloscope
  20. Digital oscilloscopes, MSO and handheld

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  • [{'LEMMA': 'scope'}]
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